"Scientists theorized that they could manipulate a protein one mutation at a time and predict its evolution. They sought to prove it. And failed. They do think, however, that they've found a fundamental truth underlying unpredictability in a biological system.

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"While we got a surprising negative result, we were able to say why," said Michael J. Harms, a professor in the UO Department of Chemistry and Biochemistry and scientist in the Institute of Molecular Biology. "That is a positive. Our simple study provides confirmation of what many people in the field have observed repeatedly -- unpredictability. It appears it is universal."

"The research was a digital affair, done with computer simulations designed by UO doctoral student Zachary R. Sailer. He and Harms created a simple lattice protein, using an approach previously created in the Harms lab, with a random sequence of 12 amino acids. They then ran evolutionary simulations to optimize stability, a physical property of the protein.

"The goal was to use the effects of all 228 mutations known to be associated with the starting protein to predict these simulated trajectories: which mutation would occur, when, over time. The ability to project ahead faded fast after the first two mutations. After that, the anticipated trajectories went astray amid a growing number of rerouting probabilities.

"'The quality of your information actually decays over time," Sailer said. "As mutations accumulate, the effects of the mutations that you measured start to change so that you can't predict where you are going."

"In their paper, Sailer and Harms suggest that physics, particularly thermodynamics, is at play. Each mutation alters the protein in a small, but nonlinear way. This means that the effect of each mutation depends on all mutations that occurred before.

"'I think that what we showed, fundamentally, is that even if you know a lot about a system, about a protein, you cannot predict how it evolves because of the physics of the system," Harms said. "There are physical rules that limit evolution and its predictability.'"

Comment: I realize this is a computer simulation and might be open to human error in software. However, this is straightforward study and likely correct. Which raises the issue, if evolution is at the mercy of random mutation, how does any evolution occur at all? Perhaps God must HAVE to do it by Himself. The obvious appearance of purpose and directionality strongly suggests God is necessary.